SU543954A1 - Multichannel electronic analyzer - Google Patents

Description

The invention can be used in various fields of science and technology in the processing of random electrical signals in real time. The known analyzers of random processes allow measuring only one integral characteristic of the process under investigation (the correlation function). The purpose of the invention is to make it possible to measure in real time a flow with the correlation function of the spectral density of the signal under study, as well as the mutual correlation function and the mutual spectrum of the two signals. This is achieved by using a channel switch, a loop of capacitors and inductors, as well as an adder in the proposed analyzer, and the capacitors and inductors are switched in the circuit with a series of switches, and the inputs of the adder are connected to the circuit capacitors. The block diagram of the proposed analyzer is shown in the drawing. It contains an electronic multichannel correlator 1, a series of channel switches 2, contacts corresponding to the initial position, which are connected to the outputs of the correlator, a series of circuits 3, the capacitors of which are connected to the first contacts, and the inductors to the contacts corresponding to the second position. When etrm, the condition t -) is satisfied. where LJ is the inductance of the ith circuit, Cj is the capacitance of the i -th circuit, t is the delay value corresponding to the 4th output of the correlator. The inputs of the adder 4 are connected to the capacitors of the circuits 3. As a result of data processing, the outputs of the 1st correlator 1 generate voltages, the proportional values of the correlation 1FUNCTION of the signal under study, which are supplied to the {capacitors of the circuit 3 at fast one + By temporarily switching between 1 and 1. switches 2, an oscillating iTipouecc appears in the circuits. The voltage from the capacitors is applied to the inputs of the adder 4, at the output of which the voltage varies up to a certain point in time in proportion to the spectral density of the signal under study and can be described by the expression

i (ti) co5kt t.

in this case, time t plays the role of a variable frequency.

Thus, periodically switching a number of switches 2, at the output of the adder one can obtain a functional dependence of the spectral density on frequency.

Claims (1)

Formula invented and. A. A channel electronic onapisator containing a correlator with channels that are different in 4Tq in order to obtain a SEC estimate; cancer: :) But its density, it contains a slmatter. channel switches for two positions, capacitors and inductors connected by the first terminals to the zero potential bus, the inputs of the adder are connected to the movable contacts of the switches and to the second terminals of the capacitors, the first fixed Koi-gkakty switches are connected to the channel outputs of the correlator, and connected to the second terminals of the inductor.